Module State_interpreter

module State_interpreter: sig .. end
Event loop module

type t 
Abstract state
val empty : with_delta_activities:bool ->
Model.t -> (Nbr.t option * Nbr.t * int) list -> t
empty ~with_delta_activities env stopping_times
val initialize : bind:('a -> (bool * Rule_interpreter.t * t -> 'a) -> 'a) ->
return:(bool * Rule_interpreter.t * t -> 'a) ->
outputs:(Data.t -> unit) ->
Model.t ->
Counter.t ->
Rule_interpreter.t ->
t ->
(Primitives.alg_expr * Primitives.elementary_rule) list -> 'a
initial env counter graph state builds up the initial state
val observables_values : Model.t -> Rule_interpreter.t -> Counter.t -> Nbr.t array
Returns (the current biological time, an array of the current values of observables)
val do_modifications : outputs:(Data.t -> unit) ->
Model.t ->
Counter.t ->
Rule_interpreter.t ->
t ->
Primitives.modification list ->
bool * Rule_interpreter.t * t
val a_loop : outputs:(Data.t -> unit) ->
dumpIfDeadlocked:bool ->
maxConsecutiveClash:int ->
Model.t ->
Counter.t ->
Rule_interpreter.t ->
t -> bool * Rule_interpreter.t * t
One event loop
val end_of_simulation : outputs:(Data.t -> unit) ->
Format.formatter ->
Model.t -> Counter.t -> Rule_interpreter.t -> t -> unit
What to do after stopping simulation.